DE2222997C3 - Method for combating algae growth in aqueous media - Google Patents

Description

(CH,), ίο

i
(CH, O), Si (CH _2), N-R

wherein R is an alkyl radical having 11 to 22 carbon atoms and R 'represents a halogen atom, in an amount from 1.0 to 10,000 micrograms added per milliliter of the aqueous medium.

2. The method according to claim 1, characterized in that a quaternary silylamine compound in which R is a radical —C ₁ ^ H ₃₃ and R 'is a chlorine atom, is added in an amount of 1.0 micrograms per milliliter of the aqueous medium.

The invention relates to a method for controlling algae growth in aqueous media.

It is a recognized fact that the old collection of algae in aqueous media, e.g. B. Water systems. leads to serious trouble. For example, in closed water systems, z. B. from cooling towers, over time algae and accumulate, creating a slimy Substance arises that inevitably requires various mechanical devices, e.g. B. clogged valves and the like, common actions to address this issue Time resolved can result in shutting down the entire system, draining the water and or scrubbing any other physical cleaning of the interior (the towers and finally the refilling of the Towers with clean water exist. It is obvious that such measures are cumbersome and time-consuming and are expensive.

Alternatively, the water in the tower can be cleaned with the help of chlorine gas, which removes the algae destroyed. However, restrictions on this particular method result from the fact that the water for Fish, other animals and humans can be poisonous. By possible leakage or overflow can pose a serious threat to the environment, which is why using this method great care must be taken.

In the yearbook "Vom Wasser". Vol. XXXII (1965). Pp. 211 to 214. is already a method of flocculation of algae contained in water using aluminum sulfate. Sodium carbonate as well as chlorine. The subject of the judgment differs from this, however, in that it is not solely aimed at flocculating and nitrating the algae per se. but to a new one Way of controlling the growth of algae in an aqueous medium by adding small amounts of a certain silane. A simple comparison also shows that the one just described is known The way of working is significantly more complex in terms of process technology. Furthermore, the appointments are to be achieved The compounds used for the desired goal are fundamentally different in constitution from the little ones known from obituary literature.

According to the "Vom Wasser" yearbook. Vol XXXVl (1969). P. 445. there is a fight against microwaves Growth of water moss and green algae through the addition of a mixture of two quaternary ammonium salts. namely a mixture of n-alkyldimelhylbenzyl -ammonium chloride and n-alkyldimethyl - ethylbenzene - ammonium chloride. in suitable Concentrations for the respective water. In the method according to the invention, although Quaternary ammonium compounds are also used, but these are certain quaternary compounds Amine silyl compounds. which are structurally very different from the known compounds just mentioned.

According to Chem. Abstr. Vol. 70 (1969 |. 2 640c. Effective! an addition of

(C ₂ H ₅ O) ₄ Si

CH Si (OCHo

such as

(CF ₁ CH CH (CH ₁ ) Si (OCH ₅ ) ;,

in certain concentrations, preferably 0.01 my per liter, controlling or regulating the algae present in the water, in particular Scenedesmus quadricauda and Chlorella vulgaris. The compounds used hereinafter, however, are quite inferior to the compounds of the invention in its algae-controlling effect as shows ersuchsbcricht later following ^v.

The invention therefore aims at a method with which the disadvantages mentioned, the conventional methods cling, to be avoided.

Surprisingly, it has now been found that by adding extremely small amounts of certain Quaternary silylamine compounds to the aqueous medium the algae in proportion be flocculated in a short time. The flocculated algae can then pass through from the liquid medium simple and easily applicable measures, e.g. B. by applying a filter or other physical Measures to be removed quickly. The quaternary silylamines are used to combat Algae growth is effective in concentrations that are harmless to animal life.

The method according to the invention is also suitable for cleaning standing and flowing waters advantageous and can also be used for the quick, easy and effective cleaning of private ornamental ponds will.

The invention relates to a method for controlling algae growth in aqueous media, which is characterized by it. that a quaternary silylamine compound is added to the aqueous medium the formula

I ₁ I,

(CH ₁ O) ₁ S ₁ (CIKl ₁ NO
R '

where R is an alkyl "cst with II to 22 carbon

atoms and R 'means a halogen atom, in one Amount of 1.0 to K) (XX) micrograms per milliliter of the aqueous medium added and thereby the Flocculates aluminum.

As mentioned, R can be an alkyl radical having 11 to 22 carbon atoms. z. B. one of the radicals - C "H ₂ j. -C ₁₂ H ₂₅ - - C ₁₄ H ₂₄ . -C ₁₁₁ H,.,. -C ₁₁₄ H., - and -C ₂₂ H ₄₅ . R 'can be any halogen atom. ie chlorine. Be bromine, iodine or fluorine. The quaiernary silylamine compounds are effective in amounts from 1.0 to 10,000 micrograms per milliliter of aqueous medium and flocculation occurs in a time from 2.0 hours to about 24 hours. The most effective concentration with which flocculation is achieved in a short time depends in some cases on the structure of the R group. It has been found that only 1.0 micrograms of the quaiernary silylamine are required to effectively flocculate the algae in 18 hours. when R is the radical - C ₁₁₁ H ,,. In other cases higher concentrations may be necessary to achieve flocculation within 18 hours. Generally, the algae will flocculate in no more than 2.0 hours when the concentration reaches 10,000 micrograms per milliliter of aqueous medium.

When flocculation occurs, the algae separate out, clump together and sink in the aqueous medium down to the bottom. It is believed that the flocculation is a Change in the physiological processes of the algae, d. H. Loss of chlorophyll initiates and eventually leads to death.

The respective quaternary silylamine compound can be added to the aqueous medium in a practically pure state or added on its own, or it can be added in a solvent system. to increase their solubility wedge. Suitable solvents are, for example, alcohols such as methanol. Ethanol. Butanol and the like, ethylene glycol monoethyl ether. Ethylene glycol monomethyl ether. Ether like Methyl ethyl ether and diethyl ether and ketones such as Methyläthylkcton.

The flocculated algae can be removed from or left in the aqueous medium. For example If desired, the flocculated algae can be removed physically by the usual measures such as filtration or the like. Are removed. Alternatively, you can put the flocculated algae in the Let the aqueous medium sink to the bottom and remove the protruding part of the liquid medium that is now free from the algae, lift off or empty.

With the quaternary silylainin compounds, a wide range of algae can be effectively flocculated will. These include, for example, the cyanophytes (blue-green algae), the chloroohytes (green algae) and the chrysophylls (Gclbgiün algae) or mixed populations of that.

connection

(CH,),

(CH ₁ O) ₁ Si (CIU ₁ NC _n II,.,
Br

/.eil

(SlUinilMll

18 24 The quaternary silylamine compounds are well-known substances that are manufactured using well-known methods. Using one of these methods, a suitable tertiary amine, for example C _1n H ₃₃ N- (CHj) ₂ . with the corresponding silane, e.g. B. chloropropyltrimethoxysilane. simply heated in a suitable solvent and preferably under the autogenous pressure. An alkylation of the tertiary amine by the alkyl halide takes place, and the quaternary silylamine compound is formed smoothly, e.g. B.

Cl

It should also be noted that the tertiary Amirie. The door of such a manufacture are often mixtures of long-chain alkyldimethylamines, which are different from natural products such as hydrogenated tall oil. Coconut Oil. Derive fish oils and the like. For example, when the tertiary amine is made from fish oils. contains the quaternary silylamine compound produced from a mixture which contains radicals -C ₂₀ H ₄₁ and also - ■ C ₂₂ H ₄₅ as group R.

The invention is illustrated in more detail by the following examples.

example 1

Six test tubes are each filled with 9.0 ml of an algae solution, which contains about 3,500,000 cells per cubic centimeter. The algae consist of a mixed population of cyanophytes | blue-green algae). Chlorophytes (green algae) and chrysophytes (yellow-green algae). Then in the test tubes added the quaternary silylamine compounds so that the final volume is 10 ml. the Flocculating compounds are found in the test tubes in the following concentrations: Test tube 1 10,000 micrograms per milliliter; Test tube 2 1000 micrograms per milliliter; Test tube 3 100 micrograms per milliliter; Test tube 4 10 micrograms per milliliter; Test tube 5 1.0 microgram per liter; Test tube 6 no treatment (Konirolle).

The test tubes with the compounds and the algae suspensions are placed on a test tube vortex shaker Shaken for 5.0 seconds. Then it becomes the time it takes for the algae to flocculate and settling on the floor is needed by visual observation at 2.0, 18 and 24 hours detected. In order to ensure normal algae growth and normal algae metabolism the experiments carried out under constant lighting.

The following table shows the results obtained.

K) duo

I ndkon / eniniiinn (Mikmiininim per milliliter)

I DO

O O O

10 1.0 O O O O O O

("ON

O O O

Vcrhiniluiu. ¹

ICH ₃ O) ₃ Si (CHj) ₃ NC ₁₂ H ₂ , Cl (CH ₁ I ₂

(CH ₃ O) ₃ Si (CH ₂ I ₃ NC ₁₄ H ₂₄ Cl

(CH K

j (CH ₃ O) ₃ Si (CHj) ₃ NC ₁₁₁ H _3. ,

Cl

(CH ₃ I ₂

(CH ₃ O) ₃ Si (CH ₂ I ₃ N - C ₁₈ H ₃ -

Cl mixture ;; us

(CH ₃ N

(CH ₃ O) ₃ Si (CH ₂ J ₃ NC ₂₁₁ H ₄₁ C!

(CH,),

(CH ₃ O) ₃ Si (CH ₂ I ₃ NC ₂₂ H ₄₅

Cl

Trial report I. Compounds studied

(CH ₃ CH ₂ O) ₄ Si

(Chem. Abstr. Vol. 70 (1969). 2 MOc.

(CH ₃ CH ₂ O) ₃ SiCH-CH,

(Chcm. Abstr. Vol. 70 (1969). 2 MOc.

(CH ₁ I ₂

j (CH ₃ O) ₁ Si (CH ₂ I ₁ NC ₁₈ H ₁ -Cl

(proper connection).

II. Organisms used

a) Oscillatoria bornetti.

b) Anahacna cylindrica.

c) Chlorella vulgaris.

d) Selenaslrum uracile.

e) l'lcurococcus sp .. I) (ionium sp ..

LiI VoKo \ sn

continuation

; A- "; ιηυκ., η /.

^! lSiuiulcni; Hl (Ki (I 11 MM »

ι ■ ■ -t- ι ■

IS! 3 »

2 IS 24

24

2 IS

24

I ο

+
r O -t- Λ- i-

mi iMikn'.L'i.iniiii pin MilIiliiLii
| i ;: i ' 111 [ IJi 1 (1'

O O

ο Ι ο ο

O i ö

O O

ο ι ο

ο I ο

+ ■!

O O O

O O O

ο I c

III. Investigation procedure
Effectiveness in the solution

The investigation includes the addition of standardized algae inocula (1 million cells mil / u constantly illuminated solutions, which the individual test compounds in each case in concentration

10 (K) O, K) (X). 100. "10 and 'ppm. Included. Each to investigating compound is evaluated three times. against each of the above Concentrations. The cultures of the algae cells are not mixed with one another, but separated examined from each other. The algicidal effect of the test subsidence is confirmed after incubation for one and a half hours visual comparison with corresponding comparison samples determined. The algicidal effect is each confirmed by the fact that there was no growth of algae agar or an algae comes.

IV. Results

Under the given in the following table <> 5 efficacy in solution is that Minimalkonzenlralion (ppm) of the understood to be examined compound having an algicidal effect .ösunL I m ¹ eri! ibt.

Minimum concentration (ppm) of a compound which shows an algicidal effect in solution

Seaweed

O. Bornetti

Λ. cylindrica. ...

C. vulgaris

S. gracile

Pleurococcus sp.

Gonium sp

Volvox sp

(CH., OH, O | ₄ Si

> 10,000 "

> 10

> H) O (H)

> 10

>! 0

> 10

> ¹ O (K) O

(CH ₁ I 11.01, SHlI CH,

10,000
10,000
HH) OO
10,000
10,000
H) (HK)
10,000

1 (11,1, (I ll, O |, Si ((H, |, N C ,, 11, - (I

100 1000

100

100

100

100 1000

"I> 10 000 = no algicidal effect at 10 IXX) ppm. Higher con / emral ions are examined with flour.

V. Summary 20

Although the examinations are carried out with the utmost care were operated, the in Chem. Absir .. Vol. 70 (1969). 2 640c. values for the algicidal effects cannot be reproduced in solution. and not even at much higher concentrations. In contrast, the compounds according to the invention are extremely effective and they develop even at concentrations of 1000 bi: 100 ppm of organosilicate amine against all siebet investigated species an algicidal effect in solution. In addition, it is pointed out that the criin substances according to the invention also have an algicidal effect if they are firmly attached to a carrier in the usual way are bound. The t'bcrlegenhcii of the invention Substances that are moderate in comparison with the compounds derived from the above literature are thus clearly proven

Claims (1)

Patent claims: 1. Method of controlling algae growth in aqueous media by flocculation. characterized in that the aqueous medium is treated with a quaternary SiIyI-amine compound the formula